Answer:
Explanation:
Given
Initial Flow of water[tex]=100 ft^3/s[/tex]
density [tex]\rho =62.4 lbm/ft^3[/tex]
Initial velocity[tex](v_i)=20 ft/s[/tex]
Final velocity [tex](v_f)=18 ft/s[/tex]
Initial mass flow rate[tex]=\rho Av=\rho Q[/tex]
[tex]m_i=62.4\times 100=62.4\times 10^2 lbm/s[/tex]
Let area of cross section of Two streams after striking be A
Conserving Flow
[tex]Q_i=Q_1+Q_2[/tex]
[tex]100=A\times 18+A\times 18[/tex]
[tex]A=\frac{50}{18} ft^2[/tex]
or Flow rate after splitter splits in to half
[tex]Q_i=2Q_f[/tex]
conserving momentum in x direction
Final momentum in x direction [tex]=m\times v[/tex]
[tex]P_f=2\times \rho \frac{Q}{2}\times 18\times \cos 45[/tex]
[tex]P_i=\rho Q\times 20[/tex]
Change in momentum[tex]=P_i-P_f[/tex]
[tex]=20\rho \times Q-\frac{18\rho Q}{\sqrt{2}}[/tex]
[tex]=7.28\times 62.4\times 100[/tex]
[tex]=45,427.2 lbm-ft/s^2[/tex]
F=1409.24 lbf
change of momentum in Y direction is zero as the two flows oppose thier motion after striking with splitter.
